Many recent grants and awards!

April 12th, 2017

Many students have recently been awarded grants or awards. Congratulations to all!

Xiaoxian Liu received an NSF Doctoral Dissertation Improvement Grant to study alternative splicing in Tragopogon.

Johanna Jantzen received a Society for the Study of Evolution Rosemary Grant research award.

Andre Naranjo and Maggie Hernandez (a former undergraduate in the lab, moving to Penn State to study Anthropology) received NSF Graduate Research Fellowships.


Lauren Gonzalez awarded SSB Grant!

October 29th, 2015

TropaeolumCongratulations to Lauren Gonzalez who was recently awarded a Graduate Student Research Award from the Society of Systematic Biologists for her proposal titled “Elucidating the Evolutionary History of Tropaeolum (Tropaeolaceae): Implications for Historical Biogeography, Trait Evolution, and Conservation”


Tropaeolum (Tropaeolaceae) comprises ~ 90 species native to Central and South America that are distributed throughout the Andes, within a variety of different habitat types, including several biodiversity hotspots. They also show great variation in floral morphology (e.g. color, shape, size) and some species have been important cultivars around the world.  Because of its distribution and diversity, this genus represents an ideal system to study how geological and environmental processes have affected plant evolution in South America. The goals of this study are to resolve the phylogeny of Tropaeolum using a next-generation sequencing approach and subsequently explore biogeography, trait evolution, and conservation status.

Dimensions of Biodiversity grant funded–NSF

October 9th, 2014

Qiyun Shan_with pavillion and toaist resident houses[2]Biodiversity is multidimensional, composed of genetic, phenotypic, ecological, and geographic variation within and among species. Less frequently considered is the role of evolutionary history in shaping current patterns of biodiversity. That is, how does history constrain or enhance biodiversity? The forests of eastern Asia and eastern North America were anciently connected and have a shared evolutionary and ecological history; they therefore offer an excellent opportunity to study the drivers of biodiversity across geographic space and through evolutionary time. Within forests, plants grow in association with soil bacteria and fungi (collectively referred to as microbes), but little is known about how these associations vary within and among forests and how they generate biodiversity. Do forests in the eastern US and eastern China share evolutionary and ecological features that trace to their common ancestry, or have they followed separate paths since they diverged million of years ago? Do plants and microbes reveal the same patterns, suggesting their histories remain tightly linked, or do these patterns vary geographically? This project is a collaboration between US and Chinese scientists who are conducting novel analyses of plant and microbial diversity in forests in the US and China to discover those factors that shape biodiversity through space and time.

This multidisciplinary project integrates phylogenomics, biogeography, and plant and microbial evolution and ecology to address novel questions on the origins and functional consequences of biodiversity. The research team will reconstruct evolutionary histories for key plant groups shared between eastern North America and eastern China using cutting-edge genetic methods and will evaluate spatial patterns of diversity within and between continents. Exploration of microbial diversity across spatial scales – from individual plant microbiomes to communities to continents – will yield new discoveries of biodiversity and plant-microbial interactions, enabling investigation of co-diversification Liriodendron chinenseof plants and associated microbes. Ecosystem function, inferred from analysis of plant functional traits and remotely sensed canopy properties, will be quantified at all sites and linked to analyses of microbial function. Innovative analytical methodologies will lead to new discoveries in evolutionary and functional diversity of plants and microbes at community and regional scales. Integration of historical connections, current patterns, and future species distribution models will lead to more holistic views of the drivers of biodiversity and a better understanding of our planet’s ecosystems, how to conserve them, and how to represent them in global climate-carbon models that inform national and international climate and energy policies.

The research team will conduct joint fieldwork in both the US and China and has developed an extensive education and training program for students at various levels, a highlight of which is a cyber-enabled course for Chinese and US participants.

For more information on the NSF Dimensions of Biodiversity Program, see here.